A Pulsar Timing Array for Gravitational Wave Detection. Paul Demorest, NRAO
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1 A Pulsar Timing Array for Gravitational Wave Detection Paul Demorest, NRAO
2 About 10% of known radio pulsars are recycled millisecond pulsars (MSPs). These are spun up by accreting matter from a companion star: (Image: B. Saxton, NRAO) These rare objects are incredibly useful for exploring a variety of extreme physics and astrophysics!
3 MSPs act as extremely precise astronomical clocks: ~1.5 ms Spin period of PSR B at Midnight, December 5, 1998: P = ms +/ ms!
4 Timing of binary NS allows tests of gravity / general relativity. NS mass measurements provide unique tests of the physics of matter at super-nuclear density.
5 Gravitational waves: Freely-propagating spacetime ripples predicted by GR. Generated by almost any moving mass (binaries, etc). Are very weak and not yet directly detected. Detection will be another confirmation of GR. And will open up gravitational wave astronomy.
6 Experimental evidence for GW: Orbital decay of PSR B measured by radio timing exactly matches expected energy loss to GW emission. (Physics Nobel prize for Hulse and Taylor in 1993)
7 Pulsar Timing Array: a galactic-scale gravitational wave detector. Sensitive to very low frequency (~nhz) grav waves.
8 Pulsar Timing Array GW complementarity: For PTAs, sensitivity h ~ dt / T --> requires 10s of ns over years!
9 Nanohertz GW sources: Monochromatic MBH-MBH binaries of >107 solar mass. PTA Sources Stochastic MBH background (Jaffe & Backer 2003, Sesana et al 2008,...) Resolved MBH sources (Sesana et al 2009, Boyle & Pen 2010,...) Also cosmic strings, other exotica / the unknown!
10 Isotropic stochastic BG induces correlated timing residuals in pulsar pairs. Characteristic signature vs pairwise angular separation. ( Hellings/Downs curve )
11 Pulsar Timing Arrays around the world: Parkes Pulsar Timing Array (PPTA) European Pulsar Timing Array (EPTA) North American Nanohertz Observatory for Gravitational Waves (NANOGrav) In combination, International Pulsar Timing Array (IPTA)!
12 NANOGrav project: Primarily US/Canadabased pulsar timing array project using US radio telescopes. Collaboration formally started in Current chair: Maura McLaughlin, WVU. $6.7M / 5-yr NSF PIRE award.
13 NANOGrav project: Favorable response from Astro2010: GW astronomy one of 5 key discovery areas. PTAs highly recommended by RMS panel. NANOGrav listed as a contender for proposed Mid-Scale NSF funding.
14 NANOGrav observing: Monitor ~20 pulsars monthly, starting in yr data analysis underway! Dual-freq: 820, 1400 MHz (GBT); 327, 430, 1400, 2300 MHz (AO). Typically 30 min per source per band each epoch. Uses ASP pulsar backends (~64 MHz coherent dedisp).
15 Arecibo observatory: 305-m fixed reflector
16 Green Bank Telescope: 100-m, fully steerable
17 NANOGrav 5-year timing results overview: (plot: D. Nice)
18 NANOGrav 5-year timing results summary (analysis ongoing; PD, M. Gonzalez, D. Nice, I. Stairs, S. Ransom, R. Ferdman) Analysis features: 2 PSRs at ~40 ns! Two independent calibration/processing pipelines DM(t) and timing model in single fit. Fit includes systematic timing vs freq correction (profile shape evolution).
19 Best timing residuals versus time: J J
20 5-year NANOGrav GW cross-correlation analysis Computed using methods from Demorest (2007): Assumes/optimized for -2/3 power law GW spectrum. Current work: Inject/characterize simulated GW signals.
21 How to improve the measurement? Easy way: Do nothing!
22
23 Expected GW sensitivity improvement vs time:
24 How to improve the measurement? Easy way: Do nothing! Currently happening: - Discover/add more pulsars - Better instrumentation - Improved data analysis (more GW signals; ISM) Near future: - Increase observing time on current telescopes. - Receiver upgrades Long-term: - More collecting area (larger telescopes).
25 Rapidly increasing number of MSPs: NANOGrav pulsars (in galactic coords): red= classic, blue=recently added (past ~year) From 17 orig sources -> 27 by later this year. Driven by Fermi MSP discoveries; also GBNCC (GBT), PALFA (Arecibo), HTRU (Parkes) ongoing pulsar surveys.
26 New high-precision timing instrumentation: (Demorest, Ransom, Ford, McCullough, Ray, Brandt, Duplain) GUPPI = Green Bank Ultimate Pulsar Processing Instrument Fully utilizes GBT low-freq receivers. Incorporates best features of 5 previous backends at GB. Both search and timing/coherent modes. 100, 200, or 800 MHz total BW 8-bit ADCs, full-stokes, flexible parameters (# channels, integration time, etc).
27 GUPPI architecture: ~1 MHz PFB in FPGAs Coherent dedisp in GPUs IBOB beef XAUI BEE2 10 Ge switch; 24 Gb/s GPUs
28 Coherent GUPPI first light PSR B , MHz GASP band
29 J Shapiro delay timing with coherent GUPPI: J is a NANOGrav PTA target GUPPI gives 1 us timing in 1 minute. Orbital inclination = 89.17(2) deg! Pulsar mass = 1.97(4) solar! (Demorest, Pennucci, Ransom, Roberts, Hessels, Nature, 2010)
30 Expected GW sensitivity improvement vs time:
31 Improving existing telescope resources: Current usage ~3% total time at GBT/Arecibo. Wideband receiver upgrades (~0.8-3 GHz) PUPPI for Arecibo is in progress. EVLA provides ~GBT sensitivity, and octavebw receivers. First EVLA pulsar detection! (Feb 2011, PD, A. Deller)
32 Future telescopes Main criteria: size (G/T) and location (sky coverage). Freq coverage ~ GHz. MeerKAT (South Africa) Contributions: Add'l area, receivers, backends, expertise. FAST (China) m dishes. ~GBT sensitivity One 500-m dish! ~3x Arecibo sensitivity Dedicated PTA telescope?
33 Conclusions/Summary: 1. NANOGrav project aims to detect nhz-freq GW using pulsar timing. 2. Current best timing results at the ~40 ns level. GW detection is possible within the next ~5-10 years. 3. Ongoing discovery of new MSPs. 4. GUPPI instrument provides order-of-magnitude observational improvement. 5. Exciting near-future improvement from new telescopes (EVLA, MeerKAT, FAST,...).
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